Interdecadal interactions between the tropics and midlatitudes in the Pacific basin Academic Article

abstract

• Analysis of global climate model simulations and observations suggest decadal, midlatitude changes in and over the North Pacific cause decadal modulation of the El Nio-Southern Oscillation. This coupling between the two geographic regions is via atmospheric, not oceanographic, teleconnections. In essence, large scale changes in the circulation of the atmosphere over the Pacific Basin, while largest in midlatitudes, have a significant projection onto the wind field overlying the equatorial regions. These low frequency wind changes precondition the mean state of the thermocline in the equatorial ocean to produce prolonged periods of enhanced or reduced ENSO activity. The midlatitude variability that drives equatorial impacts is of stochastic origin and, although the magnitude of the signal is enhanced by ocean processes, likely unpredictable.

authors

• Saravanan, Ramalingam

published proceedings

• GEOPHYSICAL RESEARCH LETTERS

altmetric score

• 3

author list (cited authors)

• Barnett, T. P., Pierce, D. W., Latif, M., Dommenget, D., & Saravanan, R.

citation count

• 184

complete list of authors

• Barnett, TP||Pierce, DW||Latif, M||Dommenget, D||Saravanan, R

publication date

• March 1999

publisher

• American Geophysical Union (AGU)  Publisher

keywords

• 13 Climate Action
• 37 Earth Sciences
• 3701 Atmospheric Sciences
• 3702 Climate Change Science
• 3706 Geophysics
• 3708 Oceanography

Digital Object Identifier (DOI)

• 10.1029/1999GL900042

start page

• 615

end page

• 618

volume

• 26

issue

• 5

URL

• http://dx.doi.org/10.1029/1999gl900042

user-defined tag

• 13 Climate Action